The Power of the Rhythm of Tree Stems

Abstract:

On annual and monthly scales, a remarkable close relationship has been shown between net ecosystem productivity (NEP) measured by eddy covariance and stem diameter variations (SDV) measured with automated point dendrometers in a Swiss subalpine Norway spruce forest (Zweifel et al. 2010). Causality for the close NEP–SDV relationship is poorly understood, but radial stem growth has been suggested to play a crucial role. Despite its huge ecological implications, and being ‘hot’ in anatomical, ecophysiologial, and ecological disciplines, radial stem growth in trees remains poorly understood (Steppe et al. 2015). While high-resolution SDV mirror a source of tree physiological information, unambiguous interpretation of dendrometer readings is more complicated than it appears at first sight, with a great potential still waiting to be discovered (De Swaef et al. 2015, Zweifel 2015). Also an integrative framework to assess impacts of climate on stem growth is still lacking, although such a theory is very much needed to predict annual tree growth patterns as well as future production and carbon sequestration potential of forests (Steppe et al. 2015). In this keynote lecture, I will present the major fluxes and pools of water and carbon inside a stem segment of a tree. I will examine diel dynamics in radial stem growth from underlying water and carbon mechanisms under wet and dry conditions, distinguishing between known patterns and processes, and more speculative ones. Discussions will be based on observations in the different research disciplines, but also result from mechanistic plant models aiming at integration. Based on this, I will show missing pieces that might be critical to build an integrative theory to understand causes and consequences of tree stem growth. Addressing these key-missing pieces of information may help improving quantification of terrestrial ecosystem carbon uptake and storage.

References

De Swaef et al. (2015) Tree Physiology (in press).

Steppe et al. (2015) Trends in Plant Science 20: 335-343.

Zweifel et al. (2010) New Phytologist 187: 819-830.

Zweifel (2015) Plant, Cell & Environment (in press).